antibacterial properties

A putative ABC transporter gene, CcT1, is involved in beauvericin synthesis, conidiation, and oxidative stress resistance in Cordyceps chanhua

mycolabadmin

Cordyceps chanhua is a medicinal fungus used in traditional Chinese medicine that produces a compound called beauvericin, which has health benefits but can be toxic in high amounts. Researchers discovered a gene called CcT1 that controls how much beauvericin the fungus makes. By removing this gene, they could reduce beauvericin production by 64%, making the fungus safer to use as medicine while maintaining other beneficial properties.

Bioactive Metabolites from the Fruiting Body and Mycelia of Newly-Isolated Oyster Mushroom and Their Effect on Smooth Muscle Contractile Activity

mycolabadmin

Researchers isolated a new oyster mushroom strain and studied how it affects digestive system health. They compared the fruiting body and mycelium (root-like structure) and found that water extracts of the fruiting body were rich in beneficial compounds like β-glucans and antioxidants. When tested on stomach muscle tissue, these extracts caused muscle contractions in a dose-dependent manner, suggesting potential benefits for digestive function. This discovery could lead to new natural supplements supporting gut health.

Waste Rose Flower and Lavender Straw Biomass—An Innovative Lignocellulose Feedstock for Mycelium Bio-Materials Development Using Newly Isolated Ganoderma resinaceum GA1M

mycolabadmin

Researchers developed eco-friendly building materials by growing mushroom mycelium (Ganoderma resinaceum) on waste residues from rose and lavender essential oil production. These waste biomasses, typically discarded or burned, were successfully converted into biocomposites with properties comparable to hempcrete and other sustainable materials. The resulting mycelium-based materials are completely natural, biodegradable, and possess antimicrobial and aromatic properties, offering a promising sustainable alternative to synthetic materials.

Nitric Oxide-Mediated Regulation of Chitinase Activity and Cadmium Sequestration in the Response of Schizophyllum commune to Cadmium Stress

mycolabadmin

Schizophyllum commune is an edible mushroom with health benefits, but cadmium pollution threatens both the fungus and human health. Researchers discovered that when exposed to cadmium, the mushroom produces a signaling molecule called nitric oxide that makes its cell wall enzymes more active, causing cadmium to accumulate in the cell wall and damaging the fungus. By controlling nitric oxide levels, scientists could potentially make these fungi more resistant to heavy metal pollution and safer for consumption.

Mycelial Beehives of HIVEOPOLIS: Designing and Building Therapeutic Inner Nest Environments for Honeybees

mycolabadmin

Scientists created experimental beehives made from living mushroom mycelium (the root structure of mushrooms) combined with 3D-printed scaffolds. These hives are designed to keep bees warmer while providing natural antimicrobial compounds that protect them from diseases. The research combines digital design technology with biology to create homes that mimic the natural tree cavities where wild honeybees live, potentially making them healthier and more resilient to climate change and diseases.

therapeutic action: antibacterial properties

A putative ABC transporter gene, CcT1, is involved in beauvericin synthesis, conidiation, and oxidative stress resistance in Cordyceps chanhua

Bioactive Metabolites from the Fruiting Body and Mycelia of Newly-Isolated Oyster Mushroom and Their Effect on Smooth Muscle Contractile Activity

Waste Rose Flower and Lavender Straw Biomass—An Innovative Lignocellulose Feedstock for Mycelium Bio-Materials Development Using Newly Isolated Ganoderma resinaceum GA1M

Nitric Oxide-Mediated Regulation of Chitinase Activity and Cadmium Sequestration in the Response of Schizophyllum commune to Cadmium Stress

Mycelial Beehives of HIVEOPOLIS: Designing and Building Therapeutic Inner Nest Environments for Honeybees